Elucidation of Spin-Correlations, Fermi Surface and Pseudogap in a Copper Oxide Superconductor

IF 1.9 Q3 PHYSICS, CONDENSED MATTER

Condensed Matter Pub Date : 2023-04-04 DOI:10.3390/condmat8020033

H. Kamimura, M. Araidai, K. Ishida, Shunichi Matsuno, H. Sakata, K. Sasaoka, K. Shiraishi, O. Sugino, J. Tsai, K. Yamada

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Abstract

First-principles calculations for underdoped La2−xSrxCuO4 (LSCO) have revealed a Fermi surface consisting of spin-triplet (KS) particles at the antinodal Fermi-pockets and spin-singlet (SS) particles at the nodal Fermi-arcs in the presence of AF local order. By performing a unique method of calculating the electronic-spin state of overdoped LSCO and by measurement of the spin-correlation length by neutron inelastic scattering, the origin of the phase-diagram, including the pseudogap phase in the high temperature superconductor, Sr-doped copper-oxide LSCO, has been elucidated. We have theoretically solved the long-term problem as to why the angle-resolved photoemission spectroscopy (ARPES) has not been able to observe Fermi pockets in the Fermi surface of LSCO. As a result, we show that the pseudogap region is bounded below the characteristic temperature T*(x) and above the superconducting transition temperature Tc(x) in the T vs. x phase diagram, where both the AF order and the KS particles in the Fermi pockets vanish at T*(x), whilst KS particles contribute to d-wave superconductivity below Tc. We also show that the relationship T*(xc) = Tc(xc) holds at xc = 0.30, which is consistent with ARPES experiments. At T*(x), a phase transition occurs from the pseudogap phase to an unusual metallic phase in which only the SS particles exist.

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铜氧化物超导体中自旋关联、费米表面和赝隙的阐明

欠掺杂La2−xSrxCuO4（LSCO）的第一性原理计算揭示了在AF局部序存在下，费米表面由波腹费米口袋处的自旋三重态（KS）粒子和节点费米弧处的自旋单重态（SS）粒子组成。通过采用一种独特的方法计算过量LSCO的电子自旋态，并通过中子非弹性散射测量自旋相关长度，阐明了相图的起源，包括高温超导体Sr掺杂氧化铜LSCO中的假间隙相。我们从理论上解决了为什么角度分辨光电发射光谱（ARPES）无法观察到LSCO费米表面的费米空穴的长期问题。因此，我们表明，在T与x的相图中，伪间隙区域被限制在特征温度T*（x）以下和超导转变温度Tc（x）以上，其中费米口袋中的AF阶和KS粒子在T*（x）处都消失了，而KS粒子在Tc以下对d波超导性有贡献。我们还表明，在xc=0.30时，T*（xc）=Tc（xc的关系成立，这与ARPES实验一致。在T*（x）处，发生从假间隙相到仅存在SS颗粒的不寻常金属相的相变。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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